CN201728077U

CN201728077U - Multicomponent dynamic stirring device

Info

Publication number: CN201728077U
Application number: CN2010202526131U
Authority: CN
Inventors: 付高锋; 付强; 尹鑫
Original assignee: LUOYANG CITY RUICHUANG ELECTRIC EQUIPMENT CO Ltd
Current assignee: LUOYANG CITY RUICHUANG ELECTRIC EQUIPMENT CO Ltd
Priority date: 2010-07-09
Filing date: 2010-07-09
Publication date: 2011-02-02
Anticipated expiration: 2020-07-09

Abstract

The utility model belongs to the technical field of stirring and discloses a multicomponent dynamic stirring device. The multicomponent dynamic stirring device mainly comprises a driving device, a machine body (1), a feeding combination valve, a cleaning mechanism (18) and a liquid outlet nozzle (13). A motor of a stirring body (9) in the driving machine body (1) is a servo motor. A circulation valve of the feeding combination valve is arranged corresponding to a feeding valve. The feeding valve is provided with a liquid outlet communicated with a stirring chamber of the machine body. The circulation valve is communicated with the feeding valve. A piston (15-1) for controlling the liquid outlet of the feeding valve and a piston (15-2) for controlling a liquid outlet of the circulation valve and are of a linkage and mutual exclusion structure. The circulation valve is communicated with a storage tank (48), a feeding device (46) and a liquid inlet of the feeding valve to form a filter circulation structure of glue solution or other components. The cleaning mechanism (18) consists of a cleaning valve (18-2) and a blowing valve (18-1). The liquid outlet nozzle (13) is arranged at the bottom of the machine body. The multicomponent dynamic stirring device is driven by the servo motor so as to realize direct glue breakage and liquid impurities in a pipeline can be discharged by the filter circulation structure.

Description

A kind of multicomponent dynamic agitation device

Technical field

The utility model belongs to the liquid agitation technical field, mainly proposes a kind of multicomponent dynamic agitation device.

Background technology

Traditional stirring body mostly is the helical blade structure, stir by the tooth that stretches out on the stirring body, because whole injecting glue process is than very fast, mixed process is shorter, is difficult to mix in beginning with when finishing, and occurs glue mixing non-uniform phenomenon in the process that causes stirring, influence final foaming effect, cause result of use undesirable, not merely influential in the use, obvious deficiency is also arranged in appearance.

The stirring power of traditional stirring body is to drive power transmission shaft by threephase asynchronous to provide, because threephase asynchronous has the existence of inertia when stopping, when motor switch is closed, still have the trend that is rotated further, so just caused can not break the immediately phenomenon of glue of agitating device.

Traditional device is not provided with circulatory function, enters when occurring influencing foaming substance in air or the glue if run into device sealing problem charging line, need carry out air or impurity eliminating from glue discharging mouth.So not only waste raw material, also can cause a large amount of environment waste materials, increased the input of cost.

Summary of the invention

The purpose of this utility model is to propose a kind of multicomponent dynamic agitation device, problems such as, can not directly break glue inhomogeneous in order to the mixing that solves glue in the prior art.

The technical scheme that its technical problem that solves the utility model adopts is: a kind of multicomponent dynamic agitation device mainly is made of drive unit, body, feed combinations valve, wiper mechanism and fluid mouth; Be provided with stirring body in the body of described agitating device, the motor that drives stirring body is a servomotor, and stirring body is the helical groove structure of at least two helical pitches; Described feed combinations valve is a plurality of, i.e. the component of corresponding required stirring is respectively arranged with a feed combinations valve; Described feed combinations valve is made of inlet valve and circulating valve, the corresponding inlet valve setting of described circulating valve, and the inlet of inlet valve is communicated with by feeding device with the storage tank that has filter, and described feeding device is made of gear pump, motor, controller; Described inlet valve has the liquid outlet that is communicated with the body teeter chamber; Described circulating valve is communicated with inlet valve; The piston of described control inlet valve liquid outlet is interlock and mutual exclusion mechanism with the piston of control circulating valve liquid outlet; That is: the piston action of control inlet valve liquid outlet is opened the inlet valve liquid outlet, makes glue or other component enter the body teeter chamber by inlet valve, and the piston of circulating valve moves simultaneously, closes the liquid outlet of circulating valve; The piston action of inlet valve is closed the inlet valve liquid outlet, makes between inlet valve and the body teeter chamber to close, and the piston of circulating valve moves simultaneously, and the liquid outlet of ON cycle valve makes the glue that enters circulating valve or other component be flowed out by the liquid outlet of circulating valve; Described circulating valve is communicated with by the inlet of pipeline with the storage tank that has filter, feeding device, inlet valve, constitutes the filtration cycle structure of glue or other component; Described wiper mechanism mainly is made of cleaning valve and purge valve, and cleaning valve is communicated with the body teeter chamber with purge valve; Described fluid mouth is arranged on the bottom of body.

Described circulating valve is close on the inlet valve and by axis hole and is communicated with.

Described cleaning valve directly is communicated with the body teeter chamber, and described purge valve is close on the cleaning valve valve body and by axis hole and is communicated with.

Described cleaning valve is communicated with the body teeter chamber respectively with purge valve.

Described wiper mechanism is a valve, has cleaning fluid and compressed air inlet on the valve body, and the liquid outlet of valve body is communicated with the body teeter chamber.

Described wiper mechanism is a valve, has cleaning fluid and compressed air common inlet on the described valve body, and described cleaning fluid is communicated with cleaning solution supplying device, compressed air source by three-way pipe with the compressed air common inlet.

Described body is cuboid or many rhombogens.

The utility model proposes a kind of multicomponent dynamic agitation device, it is drive unit that agitating device adopts servomotor, and servomotor stall glue is promptly disconnected, realizes the directly disconnected glue of glue, has the filtration cycle structure of glue or other component; In addition, the helical groove structure of stirring body at least two helical pitches can make glue mix fully, and push to glue discharging mouth fast.

Description of drawings

Fig. 1 is a structural representation of the present utility model.

Fig. 2 advances glue combination valve schematic diagram for the utility model.

Fig. 3 is the cutaway view of Fig. 2.

Fig. 4 is the utility model liquid filtering decontamination cycle schematic diagram.

Fig. 5 is the overall structure schematic diagram of embodiment 1.

Fig. 6 is the structural representation that embodiment 1 cleans combination valve.

Fig. 7 is the cutaway view of Fig. 6.

Fig. 8 is the overall structure schematic diagram of embodiment 2.

Fig. 9 is the structural representation that embodiment 2 cleans combination valve.

Figure 10 is the cutaway view of Fig. 9.

Figure 11 is the overall structure schematic diagram of embodiment 3.

Figure 12 is the schematic diagram that embodiment 3 cleans combination valve.

Figure 13 is the cutaway view of Figure 12.

Figure 14 is the structural representation of the utility model stirring body.

Figure 15 is the vertical view of Figure 14.

Among the figure: 1, body, 2, shaft coupling, 3, power transmission shaft, 4, location bearing, 5, locking nut, 6, bearing gland, 7, the sealing clamp nut, 8, sealing, 9, stirring body, 10, teeter chamber's locknut, 11, pad, 12, the pad locknut, 13, the fluid mouth, 14-1, axis hole, 14-2, axis hole, 14-3, axis hole, 14-4, axis hole, 14-5, axis hole, 15-1, piston, 15-2, piston, 15-3, piston, 15-4, piston, 15-5, piston, 15-6, piston, 15-7, piston, 16, the feed combinations valve, 16-1, circulating valve, 16-2, advance the glue valve, 17, the feed combinations valve, 17-1, circulating valve, 17-2, inlet valve, 18, wiper mechanism, 18-1, purge valve, 18-2, cleaning valve, 19, inlet, 20, liquid outlet, 21, liquid outlet, 22, air inlet, 23, air inlet, 24, air inlet, 25, air inlet, 26, the cleaning fluid import, 27, the shared outlet of cleaning fluid and compressed air, 28, compressed air inlet, 29, air inlet, 30, air inlet, 31, air inlet, 32, air inlet, 33, guiding gutter, 34, compressed air outlet, 35, compressed air inlet, 36, air inlet, 37, air inlet, 38, the cleaning fluid import, 39, rinse liquid outlet, 40, air inlet, 41, air inlet, 42, cleaning fluid and compressed air common inlet, 43, the shared outlet of cleaning fluid and compressed air, 44, air inlet, 45, air inlet, 46, feeding device, 47, pipeline, 48 storage tanks, 49, filter.

The specific embodiment

Below in conjunction with drawings and Examples the utility model is further specified.

Shown in Fig. 1,5,8,11, a kind of multicomponent dynamic agitation device mainly is made of drive unit, body 1,

feed combinations valve

16,17, wiper mechanism 18 and glue discharging mouth 13; In the body 1 of described agitating device, be provided with stirring body 9, shown in Figure 14,15, described stirring body 9 is the helical groove structure of two helical pitches, as shown in Figure 1, stirring body 9 drives power transmission shaft 3 by servomotor through shaft coupling 2 and drives stirring body 9 stirrings, the top of stirring body 9 is threaded with power transmission shaft 3, power transmission shaft 3 inserts in the body 1 and by locking nut 5 and body 1 and is fixed together, be provided with location bearing 4 on the top of power transmission shaft 3, the bearing gland 6 of location bearing 4 compresses locking nut 5, constitutes body 1 top seal; Be provided with sealing 8 in the cavity between power transmission shaft 3 and stirring body 9, sealing 8 compresses by sealing clamp nut 7 and constitutes location bearing 4 lower seal; The feed combinations valve is a plurality of, i.e. the component of corresponding required stirring is respectively arranged with a feed combinations valve; Among this embodiment, be provided with two

feed combinations valves

16,17; Shown in Fig. 2,3,4, described feed combinations valve is made of inlet valve and circulating valve, and the inlet 19 of inlet valve is communicated with by feeding device 46 with the storage tank 48 that has filter; Described feeding device 46 is made of gear pump, motor, PLC controller, and the inlet 19 of inlet valve is connected to the liquid outlet of gear pump by force pipe, and the inlet of gear pump links to each other with the storage tank 48 that has filter 49 by force pipe; The liquid outlet 20 of inlet valve is communicated with the body teeter chamber, and circulating valve is communicated with by axis hole 14-1 with inlet valve; Be respectively arranged with piston 15-2,15-1 in described inlet valve, the circulating valve, inlet valve has two compressed

air inlet ports

24,25, have two compressed

air inlet ports

22,23 on the circulating valve, the piston 15-1 of described control inlet valve liquid outlet 20 and the piston 15-2 of control circulating valve liquid outlet are interlock and mutual exclusion mechanism; That is: inlet valve liquid outlet 20 is opened in the piston 15-1 action of control inlet valve liquid outlet 20, makes glue or other component enter the body teeter chamber by inlet valve, and the piston 15-2 of circulating valve moves simultaneously, closes the liquid outlet 21 of circulating valve; Inlet valve liquid outlet 20 is closed in the piston 15-1 action of inlet valve, make between inlet valve and the body teeter chamber and close, the piston 15-2 of circulating valve moves simultaneously, and the liquid outlet 21 of ON cycle valve makes the glue that enters circulating valve or other component be flowed out by the liquid outlet 21 of circulating valve; Described circulating valve is communicated with by the inlet 19 of pipeline 47 with the storage tank 48 that has filter 49, feeding device 46, inlet valve, constitutes the filtration cycle structure of glue or other component; As Fig. 5, shown in Figure 8, described wiper mechanism 18 mainly is made of cleaning valve 18-2 and purge valve 18-1, and cleaning valve 18-2 is communicated with the body teeter chamber with purge valve 18-1; Described fluid mouth 13 is arranged on the bottom of body.

Shown in Fig. 2,3,4, when needs injection liquid mixes, external electric magnet valve control air inlet 22 disconnects with the compressed air of air inlet 24, air inlet 23 feeds compressed air with air inlet 25, the piston 15-1 action of control inlet valve makes the liquid outlet 20 of inlet valve be communicated with teeter chamber in the body, the piston 15-2 of circulating valve moves simultaneously, and the liquid outlet 21 of circulating valve is closed; Open feeding device 46 feed flows simultaneously, liquid is delivered in the teeter chamber by inlet 19, the liquid outlet 20 of inlet valve, servomotor drives power transmission shaft 3 work by shaft coupling 2, and then driving stirring body 9 rotates, the glue that stirring body 9 will enter the teeter chamber fully mixes, and finally push to fluid mouth 13 and discharge, body 1 be positioned on the track and can be along the track all around, move up and down; Be respectively arranged with the track that supplies body 1 all around, moves up and down, and the spindle motor make body 1 all around, move up and down is set respectively, diverse location according to workpiece, driving body 1 by spindle motor carries out all around, moves up and down, make fluid mouth 13 corresponding, workpiece is carried out gluing with workpiece; In conjunction with Fig. 4, when the device sealing tends to make charging line to enter air when being damaged, perhaps entered the material of influence foaming in the charging line, need to start loop structure and carry out filtration, purification injecting liquid, the control of external electric magnet valve disconnects the compressed air of air inlet 25 with air inlet 23, air inlet 24 feeds compressed air with air inlet 22, the liquid outlet 20 of inlet valve is closed in the piston 15-1 action of control inlet valve, the piston 15-2 of circulating valve moves simultaneously, the liquid outlet 21 of ON cycle valve; Liquid enters inlet valve through inlet 19, arrive in the circulating valve through axis hole 14-1, liquid outlet 21 by circulating valve is got back in the storage tank 48 after pipeline 47 is flowed through filter 49 filtrations, and through feeding device, inlet 19, inlet valve, the circulating filtration that forms liquid purifies, reach normal condition until liquid, the circulating filtration purification process finishes.

Shown in Fig. 2,3, and with reference to Fig. 5, circulating valve is close on the inlet valve and by axis hole 14-1 and is communicated with, and makes the volume minimum that circulating valve combines with inlet valve.

Shown in Fig. 5,6,7, Fig. 5 is the overall structure schematic diagram of embodiment 1, on the body face between the two feed combinations valves, wiper mechanism 18 is set, described wiper mechanism 18 is made of cleaning valve 18-2 and purge valve 18-1, the purge valve 18-1 of present embodiment is communicated with the body teeter chamber by cleaning valve 18-2, when wiper mechanism is not worked, external electric magnet valve control air inlet 30, air inlet 31 feed compressed air, compressed air promotes the piston 15-4 and the piston 15-3 of cleaning valve and purge valve, and making cleaning valve, purge valve is closed condition; In the time of after fluid injection, whipping process are finished, need carrying out cleaning, body 1 is carried out all around, is moved up and down to cleaning positions by the spindle motor drive, makes the fluid mouth 13 corresponding containers of collecting cleaning fluids, and described container can be bucket etc., need not reclaim as cleaning fluid, collection container can be garbage can; The air inlet 31 of cleaning valve is closed in the control of external electric magnet valve, the piston 15-4 action of cleaning valve, open the cleaning fluid and the shared outlet 27 of compressed air of cleaning valve, the cleaning fluid of external electric magnet valve control is simultaneously opened, servomotor rotates, shaft coupling 2 drives power transmission shaft 3 work, and then driving stirring body 9 rotates, clean reaching the stirring body that rotates in the teeter chamber, the cleaning fluid that has certain pressure enters in the cleaning valve through cleaning fluid import 26, enter in the teeter chamber through cleaning fluid and the shared outlet 27 of compressed air, clean reaching the stirring body that rotates in the teeter chamber, after cleaning certain hour, external electric magnet valve control cleaning fluid is closed, purge valve air inlet 30 is closed in external electric magnet valve control meanwhile, air inlet 29 feeds compressed air, piston 15-3 action, open purge valve, external electric magnet valve control compressed air is opened, compressed air enters purge valve by compressed air inlet 28, and enter in the cleaning valve by axis hole 14-2, enter in the teeter chamber through cleaning fluid and the shared outlet 27 of compressed air the residual liquid on teeter chamber's inwall and the stirring body is blown out; Behind the certain hour, stop servomotor and rotate, external electric magnet valve control compressed air is closed, and finishes the one action process.

Shown in Fig. 8,9,10, Fig. 8 is the overall structure schematic diagram of embodiment 2, the feed combinations valve arrangement of embodiment 2 is identical with embodiment 1, wiper mechanism is made of cleaning valve 18-2 and purge valve 18-1, cleaning valve 18-2 and purge valve 18-1 directly are communicated with the teeter chamber by axis hole 14-4,14-5 respectively, and when wiper mechanism was not worked, external electric magnet valve control air inlet 37, air inlet 41 fed compressed air, cleaning valve piston 15-6, purge valve 15-5 closes cleaning valve 18-2, purge valve 18-1; Finish fluid injection, when whipping process need clean, body 1 is carried out all around, is moved up and down to cleaning positions by the spindle motor drive, makes the fluid mouth 13 corresponding containers of collecting cleaning fluids, and described container can be bucket etc., need not reclaim as cleaning fluid, collection container can be garbage can; The air inlet 41 of cleaning valve is closed in the control of external electric magnet valve, air inlet 40 feeds compressed air, piston 15-6 action, open the rinse liquid outlet 39 of cleaning valve, the cleaning fluid of external electric magnet valve control is simultaneously opened servomotor and is rotated, shaft coupling 2 drives power transmission shaft 3 work, and then driving stirring body 9 rotates, clean reaching the stirring body that rotates in the teeter chamber, the cleaning fluid that has certain pressure is in cleaning fluid import 38 enters cleaning valve 18-2, enter in the teeter chamber through rinse liquid outlet 39, clean reaching the stirring body that rotates in the teeter chamber, after cleaning certain hour, external electric magnet valve control cleaning fluid is closed, air inlet 41 feeds compressed air, piston 15-6 action, rinse liquid outlet 39 is closed, purge valve air inlet 37 is closed in external electric magnet valve control meanwhile, feed compressed air in the air inlet 36, purge valve is opened in piston 15-5 action, external electric magnet valve control compressed air is opened, compressed air enters purge valve by compressed air inlet 35, and the compressed air that has certain pressure enters in the teeter chamber through compressed air outlet 34 residual liquid on the stirring body of teeter chamber's inwall and rotation is blown out, and finishes the one action process.

Shown in Figure 11,12,13, Figure 11 is the structural representation of embodiment 3, wiper mechanism only is provided with a valve body among the embodiment 3, valve body is connected with the teeter chamber by axis hole 14-4, have piston 15-7 in the valve body, valve body has the shared outlet 43 of air inlet 44, air inlet 45, cleaning fluid and compressed air common inlet 42 and cleaning fluid and compressed air, cleaning fluid and compressed air common inlet 42 are connected with a three-way pipe, three-way pipe is communicated with cleaning solution supplying device, compressed air source, and is provided with the magnetic valve of control cleaning fluid and compressed air supply.When wiper mechanism was not worked, external electric magnet valve control air inlet 44 fed compressed air, the shared outlet 43 of the cleaning fluid of control piston 15-7 shut off valve and compressed air; When wiper mechanism was worked, body 1 was carried out all around, is moved up and down to cleaning positions by the spindle motor drive, made the fluid mouth 13 corresponding containers of collecting cleaning fluids, and described container can be bucket etc., need not reclaim as cleaning fluid, and collection container can be garbage can; Air inlet 44 in the external electric magnet valve control shut off valve, air inlet 45 feeds compressed air, piston 15-7 action, open cleaning fluid and the shared outlet 43 of compressed air in the valve, the cleaning fluid of external electric magnet valve control is simultaneously opened, servomotor rotates, shaft coupling 2 drives power transmission shaft 3 work, and then driving stirring body 9 rotates, clean reaching the stirring body that rotates in the teeter chamber, the cleaning fluid that has certain pressure enters in the valve through cleaning fluid and compressed air common inlet 42, enter in the teeter chamber by cleaning fluid and the shared outlet 43 of compressed air, teeter chamber's inwall and stirring body 9 are cleaned, behind the cleaning certain hour, external electric magnet valve control cleaning fluid is closed, the compressed air of external electric magnet valve control is meanwhile opened, and compressed air enters in the valve through cleaning fluid and compressed air common inlet 42, enters in the teeter chamber through cleaning fluid and the shared outlet 43 of compressed air, residual liquid on the stirring body of teeter chamber's inwall and rotation is blown out, finish the one action process.

Claims

1. a multicomponent dynamic agitation device is characterized in that: mainly be made of drive unit, body (1), feed combinations valve, wiper mechanism (18) and fluid mouth (13); Be provided with stirring body (9) in the body (1) of described agitating device, the motor that drives stirring body (9) is a servomotor, and stirring body (9) is the helical groove structure of at least two helical pitches; Described feed combinations valve is a plurality of, i.e. the component of corresponding required stirring is respectively arranged with a feed combinations valve; Described feed combinations valve is made of inlet valve and circulating valve, the corresponding inlet valve setting of described circulating valve, the inlet of inlet valve (19) with have filter (49) storage tank (48) and be communicated with by feeding device (46), described feeding device (46) is made of gear pump, motor, controller; Described inlet valve has the liquid outlet that is communicated with the body teeter chamber; Described circulating valve is communicated with inlet valve; The piston (15-1) of described control inlet valve liquid outlet is interlock and mutual exclusion mechanism with the piston of control circulating valve liquid outlet (15-2); Described circulating valve is communicated with by the inlet of pipeline with the storage tank that has filter (49) (48), feeding device (46), inlet valve, constitutes the filtration cycle structure of glue or other component; Described wiper mechanism (18) mainly is made of cleaning valve (18-2) and purge valve (18-1), and cleaning valve (18-2) is communicated with the body teeter chamber with purge valve (18-1); Described fluid mouth (13) is arranged on the bottom of body.

2. a kind of multicomponent dynamic agitation device according to claim 1 is characterized in that: described circulating valve is close on the inlet valve and by axis hole (14-1) and is communicated with.

3. a kind of multicomponent dynamic agitation device according to claim 1 is characterized in that: described cleaning valve (18-2) directly is communicated with the body teeter chamber, and described purge valve (18-1) is close on the cleaning valve valve body and by axis hole (14-2) and is communicated with.

4. a kind of multicomponent dynamic agitation device according to claim 1 is characterized in that: described cleaning valve (18-2) is communicated with the body teeter chamber respectively with purge valve (18-1).

5. a kind of multicomponent dynamic agitation device according to claim 1, it is characterized in that: described wiper mechanism is a valve, have cleaning fluid and compressed air inlet (42) on the valve body, the cleaning fluid of valve body is communicated with the body teeter chamber with the shared outlet of compressed air (43).

6. a kind of multicomponent dynamic agitation device according to claim 1, it is characterized in that: described wiper mechanism is a valve, have cleaning fluid and compressed air common inlet (42) on the described valve body, described cleaning fluid is communicated with cleaning solution supplying device, compressed air source by three-way pipe with compressed air common inlet (42).